U.S. patent application number 17/352820 was filed with the patent office on 2021-10-07 for medical devices with camera and methods of placement.
The applicant listed for this patent is WM & DG, Inc.. Invention is credited to Robert W. Molnar.
Application Number | 20210307598 17/352820 |
Document ID | / |
Family ID | 1000005666165 |
Filed Date | 2021-10-07 |
United States Patent
Application |
20210307598 |
Kind Code |
A1 |
Molnar; Robert W. |
October 7, 2021 |
MEDICAL DEVICES WITH CAMERA AND METHODS OF PLACEMENT
Abstract
The present invention provides medical devices comprising a
camera combined with a second device selected from an endotracheal
tube, oral airway, supraglottic airway, tracheostomy tube, suction
catheter, tubeless intubating device, tool tube and/or stylet. The
present invention also provides methods for rapid and accurate
placement of a medical device in a patient with a guidance of a
bougie and continuous real-time monitoring, including a remote
monitoring, of the patient after the placement.
Inventors: |
Molnar; Robert W.; (Long
Grove, IL) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
WM & DG, Inc. |
Deerfield |
IL |
US |
|
|
Family ID: |
1000005666165 |
Appl. No.: |
17/352820 |
Filed: |
June 21, 2021 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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15692416 |
Aug 31, 2017 |
11051682 |
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17352820 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A61B 1/00103 20130101;
A61M 16/0488 20130101; A61M 2230/40 20130101; A61M 16/0486
20140204; A61B 1/00154 20130101; A61M 16/0495 20140204; A61M
16/0434 20130101; A61B 1/01 20130101; A61M 16/0465 20130101; A61M
16/04 20130101; A61B 1/0014 20130101; A61M 16/0463 20130101; A61M
2205/3375 20130101; A61M 2230/04 20130101; A61B 1/2676 20130101;
A61B 7/003 20130101; A61M 2205/8206 20130101; A61B 7/023 20130101;
A61B 1/05 20130101; A61B 1/0676 20130101; A61B 1/267 20130101; A61M
16/0409 20140204; A61M 2209/088 20130101; A61B 1/00105
20130101 |
International
Class: |
A61B 1/05 20060101
A61B001/05; A61M 16/04 20060101 A61M016/04; A61B 7/00 20060101
A61B007/00; A61B 1/267 20060101 A61B001/267; A61B 1/06 20060101
A61B001/06; A61B 1/00 20060101 A61B001/00; A61B 1/01 20060101
A61B001/01 |
Claims
1. A medical intubating device comprising a camera combined with a
second device comprising an endotracheal tube, oral airway,
tracheostomy tube, suction catheter, supraglottic oral airway,
truncated supraglottic oral airway, tool tube, trocar, ventilation
cap, medical examination glove and/or stylet; wherein the camera
has a distal end and a proximal end and wherein the second device
has a distal end and a proximal end, and wherein the distal end of
the camera is in near proximity with the distal end of the second
device.
2. The medical intubating device of claim 1, wherein the camera is
attached to a tube, and wherein the camera is combined with the
second device by the second device being placed into the tube, and
wherein the position of the camera on the second medical device can
be adjusted by sliding the tube along the proximal-distal axis of
the second device.
3. The medical intubating device of claim 1, wherein the camera is
attached to at least one ring which may optionally comprise a
clasp, and wherein the second device comprises a tubal body, and
wherein the camera is combined with the second device by the ring
being secured around the tubal body.
4. The medical intubating device of claim 1, wherein the second
device comprises a cuff and wherein the camera is combined with the
second device by being placed under the cuff such that the distal
end of the camera is positioned distally to the cuff.
5. The medical intubating device of claim 1, wherein the camera is
attached to the tool tube and/or the stylet.
6. The medical intubating device of claim 1, wherein the camera is
attached to the tool tube and the stylet, and wherein a bougie is
placed in the tool tube, and wherein the bougie has a proximal end
and a distal end, and wherein the distal end of the bougie
protrudes distally from the tool tube and wherein the bougie
protrudes distally to the distal end of the camera.
7. The medical device of claim 6, wherein the tool tube is a slit
wall tube.
8. The medical intubating device of claim 1, wherein the second
device is the endotracheal tube and an inflatable cuff which is
wrapped around the endotracheal tube near the distal end of the
endotracheal tube, and wherein the camera is sealed externally
along the proximal-distal axis of the endotracheal tube.
9. The medical intubating device of claim 1, wherein the second
device is the endotracheal tube with an inflatable cuff which is
wrapped around the endotracheal tube near the distal end of the
endotracheal tube, and wherein the camera is sealed externally
along the proximal-distal axis of the endotracheal tube.
10. The medical intubating device of claim 1, wherein the second
device is the endotracheal tube with an inflatable cuff which is
wrapped around the endotracheal tube and the camera near the distal
end of the endotracheal tube, and wherein the distal end of the
camera collects images distally to the cuff.
11. The medical intubating device of claim 1, wherein the second
device is the endotracheal tube with an inflatable cuff which is
wrapped around the endotracheal tube and the camera is positioned
near the distal end of the endotracheal tube, and wherein the
endotracheal tube comprises a sleeve near the proximal end of the
endotracheal tube, and wherein the camera is inserted into the
sleeve.
12. The medical intubating device of claim 1, wherein the second
device is the tracheostomy tube comprising a tubal body with a
plate and an inflatable cuff wrapped around the tubal body in
proximity to the distal end of the tubal body, and wherein the
camera is combined with tubal body externally by being inserted
into an opening of the plate and being placed under the inflatable
cuff.
13. The medical intubating device of claim 1, wherein the second
device is the endotracheal tube, wherein the endotracheal tube is
combined with a tool tube externally, wherein the tool tube can
optionally comprise a cap, and wherein the endotracheal tube is
held in place on the endotracheal tube with at least one ring,
wherein the camera slides inside the tool tube and wherein at least
one of the following tools is optionally inserted in the tool tube:
biopsy forceps, esophageal stethoscope, cuff tube, suction tube,
nasogastric tube, stylet and/or bougie.
14. The medical intubating device of claim 1, wherein the second
device is the endotracheal tube, wherein the endotracheal tube is
combined with a tool tube externally, wherein the tool tube can
optionally comprise a cap, and wherein the endotracheal tube is
held in place on the endotracheal tube with a cuff which wraps
around the tool tube and endotracheal tube, wherein the camera
slides inside the tool tube and wherein at least one of the
following tools is optionally inserted in the tool tube: biopsy
forceps, esophageal stethoscope, cuff tube, suction tube,
nasogastric tube, stylet and/or bougie.
15. The medical intubating device of claim 1, wherein the second
device is the oral airway which comprises a curved tubal body with
a proximal end and a distal end, wherein the tubal body has a lumen
and comprises a plate at the proximal end of the curved tubal body,
and wherein the camera is combined with the tubal body by being
inserted through an opening in the plate and then through an
opening in the wall of the curved tubal body, the distal end of the
camera being inside the lumen and in near proximity with the distal
end of the curved tubal body.
16. The medical intubating device of claim 1, wherein the second
device is the oral airway which comprises a hollow curved tubal
body with a proximal end and a distal end, wherein the hollow tubal
body has a lumen and comprises a plate at the proximal end of the
curved tubal body, and wherein the camera is combined with the
tubal body by being inserted through an opening in the plate and
placed along the hollow curved tubal body externally, wherein the
second device further comprises a second hollow tubal body which is
aligned with the hollow curved tubal body, and wherein a balloon
wraps around the hollow curved tubal body, the second hollow tubal
body and the camera.
17. The medical intubating device of claim 1, wherein the second
device is the oral airway device which comprises a two-part tubal
body made from an outer cylindrical tube wall and an inner
cylindrical tube, wherein the inner cylindrical tube is at least
partially inserted into the outer cylindrical tube, wherein the
inner cylindrical tube wall is extendable, the camera is combined
with the oral airway device by being inserted inside the two-part
tubal body through an opening located in proximity to the proximal
end of the tubal body, the second device further optionally
comprises a bougie.
18. The medical intubating device of claim 1, wherein the second
device is the oral airway device which comprises two hollow tubes,
a first hollow tube and a second hollow tube, wherein the first
hollow tube is inserted inside the second hollow tube partially,
the first hollow tube is longer in length than the second hollow
tube, the first hollow tube being insertable and removable from the
second hollow tube, the first hollow tube comprising a tapered
tongue at the distal end, the second hollow tube comprises a plate
at the proximal end, wherein the camera is inserted through an
opening in the plate and is combined with the second device by
being positioned externally along the second hollow tube, and
wherein the oral airway device comprises a tool lumen.
19. The medical intubating device of claim 1, wherein the second
device is the oral airway device which comprises a curved tubal
body with a central lumen and a plate at a proximal end of the
curved tubal body, wherein the a cuff wraps around the curved tubal
body and a handle is attached to the cuff, wherein the cuff is
movable from the proximal end on the curved tubal body to the
distal end of the curved tubal body with the handle and wherein the
camera is combined with the oral airway device by being inserted in
an opening in the plate, positioned along the curved tubal body
externally and wherein the cuff wraps over the camera such that the
distal end of the camera is positioned distally to the cuff.
20. The medical intubating device of claim 1, wherein the second
device is the oral airway device which comprises a curved tubal
body with a central lumen, wherein two tubes are inserted in the
central lumen, the first hollow tube and a second hollow tube with
a slit wall, wherein the first tube and the second tube are each
attached to the wall of the oral airway device and wherein a distal
end of the first tube and a distal end of the second tube are near
a distal end of the curved tubal body, and wherein a camera is
insertable in the first tube and a bougie and/or a medical tool is
insertable in the second tube.
21. The medical intubating device of claim 20, wherein a cuff wraps
around the curved tubal body near the distal end of the curved
tubal body.
22. The medical intubating device of claim 1, wherein the second
device is the supraglottic oral airway, wherein the supraglottic
oral airway comprise a tubal body with a central lumen, wherein a
soft cuff wraps around the distal end of the tubal body, wherein
the wall of the tubal body comprises a first lumen and a second
lumen with a slit, and wherein a camera is insertable in the first
lumen and a bougie is insertable in the second lumen, and wherein
the slit connects the second lumen with a central lumen of the
tubal body.
23. The medical intubating device of claim 22, wherein the tubal
body is truncated and the device comprises a handle with a holder,
a first tube which connects with the first lumen and a second tube
with slit wall which connects with the second lumen with a
slit.
24. A method of intubating a patient, the method comprising
inserting the medical device of claim 1 by guiding the insertion
with a bougie under the continuous visualization with the
camera.
25. (canceled)
26. (canceled)
27. (canceled)
28. (canceled)
29. (canceled)
30. (canceled)
31. (canceled)
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a divisional application of U.S.
application Ser. No. 15/692,416, filed Aug. 31, 2017, the entire
disclosure of which is incorporated herein by reference.
FIELD OF THE INVENTION
[0002] The invention provides a set of disposable medical devices,
including various intubating devices, which are combined with a
disposable camera providing continuous visualization during and
after placement in a patient. A sound device, such as a microphone,
may be incorporated in many devices and provides continuous
monitoring of breath and heart sounds in a patient. The continuous
visualization and sound monitoring of the patient are in real time
and enable remote monitoring as well. Methods for rapid and
accurate placement of a medical device in a patient are provided as
well.
BACKGROUND
[0003] Various devices are available to stabilize a patient and
facilitate his breathing, feeding and medication delivery. Such
devices are used in patients during surgical procedures, after
certain traumas including spinal cord injuries, and in patients
suffering from certain medical conditions including advanced
Alzheimer disease. These devices include endotracheal tubes, airway
devices, feeding tubes, oral airways, nasal cannulas and the
like.
[0004] The process of placing a breathing tube in a patient is
called intubation. Devices such as laryngoscopes,
videolaryngoscopes, fiberoptic scopes, as well as other proprietary
videoscopes have been developed. These devices provide accuracy for
initial placement, but do not provide continuous visualization or
mobility of the image after a medical device has been placed in a
patient. Newer devices, such as Vivasight SL or DL endotracheal
tubes, provide continuous visualization, but are costly because
they depend on a single use of disposable cameras and they are not
transferrable from one medical device to another. The Totaltrack
VLM supraglottic airway has a proprietary reusable camera for only
its one device, and it cannot be transferred to other medical
devices.
[0005] Thus, there remains the need for improved devices which can
be easily monitored remotely by a qualified personal during
placement and after placement for an adverse reaction. After a
medical device has been placed in a patient, the need remains to
monitor in real time the patient's possible adverse reactions such
as for example, aspiration, airway secretion, apnea, etc.
[0006] Certain medical devices which provide continuous
visualization are described in U.S. Pat. No. 9,415,179, and Patent
Publications US 2016-0038008; US 2016-0038014; and US 2016-0262603.
In these devices, a camera is placed inside of a camera tube which
is a separate lumen sealed at the distal end. This prevents the
camera from coming into a contact with a patient's body and allows
for the camera to be reused in various devices and between
different patients without the need for sterilization. While these
devices may comprise a disposable camera, the devices still
comprise a separate camera tube sealed at the distal end.
SUMMARY
[0007] The present invention provides a set of medical devices
equipped with a disposable camera without a separate sealed camera
tube. The camera can be transferred between various devices. Each
of the devices can provide continuous visualization during
intubation, extubation and while being positioned in the patient's
body. The devices do not comprise a camera tube which is sealed at
the distal end, thus the camera can be transferred between various
devices.
[0008] The devices include a medical intubating device comprising a
camera combined with a second device comprising an endotracheal
tube, oral airway, tracheostomy tube, suction catheter, tubeless
intubating device, supraglottic oral airway, truncated supraglottic
oral airway, tool tube, ventilation cap, medical examination glove
and/or stylet. The camera has a distal end and a proximal end and
wherein the second device has a distal end and a proximal end. The
distal end of the camera is in near proximity with the distal end
of the second device. In some of the devices, the camera is
attached to a tube. The camera is combined with the second device
by the second device being placed into the tube. The position of
the camera on the second medical device can be adjusted by sliding
the tube along the proximal-distal axis of the second device.
[0009] In some of the devices, the camera is attached to at least
one ring which may optionally comprise a clasp. The second device
comprises a tubal body. The camera is combined with the second
device by the ring being secured around the tubal body.
[0010] In some of the devices, the second device comprises a cuff.
The camera is combined with the second device by being placed under
the cuff such that the distal end of the camera is positioned
distally to the cuff.
[0011] In some of the devices, the camera is attached to the tool
tube and/or the stylet. The tool tube can be a slit wall tube and a
bougie is insertable in the slit wall tube.
[0012] In some of the devices, the camera is attached to the tool
tube and the stylet, and a bougie is placed in the tool tube. The
bougie has a proximal end and a distal end, and wherein the distal
end of the bougie protrudes distally from the tool tube and wherein
the bougie protrudes distally to the distal end of the camera.
[0013] The second device can be an endotracheal tube and an
inflatable cuff which is wrapped around the endotracheal tube near
the distal end of the endotracheal tube, and wherein the camera is
sealed externally along the proximal-distal axis of the
endotracheal tube.
[0014] The second device can be the endotracheal tube with an
inflatable cuff which is wrapped around the endotracheal tube near
the distal end of the endotracheal tube, and wherein the camera is
sealed externally along the proximal-distal axis of the
endotracheal tube.
[0015] The second device can be the endotracheal tube with an
inflatable cuff which is wrapped around the endotracheal tube and
the camera near the distal end of the endotracheal tube, and
wherein the distal end of the camera collects images distally to
the cuff.
[0016] The second device can be the endotracheal tube with an
inflatable cuff which is wrapped around the endotracheal tube and
the camera is positioned near the distal end of the endotracheal
tube, and wherein the endotracheal tube comprises a sleeve near the
proximal end of the endotracheal tube, and wherein the camera is
inserted into the sleeve.
[0017] The second device can be the tracheostomy tube comprising a
tubal body with a plate and an inflatable cuff wrapped around the
tubal body in proximity to the distal end of the tubal body, and
wherein the camera is combined with tubal body externally by being
inserted into an opening of the plate and being placed under the
inflatable cuff.
[0018] The second device can be the endotracheal tube, wherein the
endotracheal tube is combined with a tool tube externally, wherein
the tool tube can optionally comprise a cap, and wherein the
endotracheal tube is held in place on the endotracheal tube with at
least one ring, wherein the camera slides inside the tool tube and
wherein at least one of the following tools is optionally inserted
in the tool tube: biopsy forceps, esophageal stethoscope, cuff
tube, suction tube, nasogastric tube, stylet and/or bougie.
[0019] The second device can be the endotracheal tube, wherein the
endotracheal tube is combined with a tool tube externally, wherein
the tool tube can optionally comprise a cap, and wherein the
endotracheal tube is held in place on the endotracheal tube with a
cuff which wraps around the tool tube and endotracheal tube,
wherein the camera slides inside the tool tube and wherein at least
one of the following tools is optionally inserted in the tool tube:
biopsy forceps, esophageal stethoscope, cuff tube, suction tube,
nasogastric tube, stylet and/or bougie.
[0020] The second device can be the oral airway which comprises a
curved tubal body with a proximal end and a distal end, wherein the
tubal body has a lumen and comprises a plate at the proximal end of
the curved tubal body, and wherein the camera is combined with the
tubal body by being inserted through an opening in the plate and
then through an opening in the wall of the curved tubal body, the
distal end of the camera being inside the lumen and in near
proximity with the distal end of the curved tubal body.
[0021] The second device can be the oral airway which comprises a
hollow curved tubal body with a proximal end and a distal end,
wherein the hollow tubal body has a lumen and comprises a plate at
the proximal end of the curved tubal body, and wherein the camera
is combined with the tubal body by being inserted through an
opening in the plate and placed along the hollow curved tubal body
externally, wherein the second device further comprises a second
hollow tubal body which is aligned with the hollow curved tubal
body, and wherein a balloon wraps around the hollow curved tubal
body, the second hollow tubal body and the camera.
[0022] The second device can be the oral airway device which
comprises a two-part tubal body made from an outer cylindrical tube
wall and an inner cylindrical tube, wherein the inner cylindrical
tube is at least partially inserted into the outer cylindrical
tube, wherein the inner cylindrical tube wall is extendable, the
camera is combined with the oral airway device by being inserted
inside the two-part tubal body through an opening located in
proximity to the proximal end of the tubal body, the second device
further optionally comprises a bougie.
[0023] The second device can be the oral airway device which
comprises two hollow tubes, a first hollow tube and a second hollow
tube, wherein the first hollow tube is inserted inside the second
hollow tube partially, the first hollow tube is longer in length
than the second hollow tube, the first hollow tube being insertable
and removable from the second hollow tube, the first hollow tube
comprising a tapered tongue at the distal end, the second hollow
tube comprises a plate at the proximal end, wherein the camera is
inserted through an opening in the plate and is combined with the
second device by being positioned externally along the second
hollow tube, and wherein the oral airway device comprises a tool
lumen.
[0024] The second device can be the oral airway device which
comprises a curved tubal body with a central lumen and a plate at a
proximal end of the curved tubal body, wherein the a cuff wraps
around the curved tubal body and a handle is attached to the cuff,
wherein the cuff is movable from the proximal end on the curved
tubal body to the distal end of the curved tubal body with the
handle and wherein the camera is combined with the oral airway
device by being inserted in an opening in the plate, positioned
along the curved tubal body externally and wherein the cuff wraps
over the camera such that the distal end of the camera is
positioned distally to the cuff.
[0025] The second device can be the oral airway device which
comprises a curved tubal body with a central lumen, wherein two
tubes are inserted in the central lumen, the first hollow tube and
a second hollow tube with a slit wall, wherein the first tube and
the second tube are each attached to the wall of the oral airway
device and wherein a distal end of the first tube and a distal end
of the second tube are near a distal end of the curved tubal body,
and wherein a camera is insertable in the first tube and a bougie
and/or a medical tool is insertable in the second tube. A cuff
wraps around the curved tubal body near the distal end of the
curved tubal body.
[0026] The second device can be the supraglottic oral airway,
wherein the supraglottic oral airway comprise a tubal body with a
central lumen, wherein a soft cuff wraps around the distal end of
the tubal body, wherein the wall of the tubal body comprises a
first lumen and a second lumen with a slit, and wherein a camera is
insertable in the first lumen and a bougie is insertable in the
second lumen, and wherein the slit connects the second lumen with a
central lumen of the tubal body. In some embodiments, the tubal
body is truncated and the device comprises a handle with a holder,
a first tube which connects with the first lumen and a second tube
with slit wall which connects with the second lumen with a
slit.
[0027] Also provided are methods of intubating a patient, in which
any of the medical devices are inserted by guiding the insertion
with a bougie under the continuous visualization with the
camera.
BRIEF DESCRIPTION OF THE DRAWINGS
[0028] FIGS. 1A and 1B depict two embodiments for an endotracheal
device equipped with a camera. FIG. 1A is an embodiment in which
the camera is positioned proximally to a cuff. FIG. 1B is an
embodiment in which the camera is positioned distally to the
cuff.
[0029] FIGS. 2A and 2B depict side views of an alternative
embodiment for an endotracheal device equipped with a camera
delivered through a sliding sleeve. A camera can slide along the
endotracheal tube.
[0030] FIG. 3A, depicts an endotracheal device equipped with a
camera comprising rings. FIG. 3B is a side view of the camera
comprising two rings. FIG. 3C is a cross-sectional view through a
camera showing an adjustable sliding ring with a clasp attached to
the camera.
[0031] FIG. 4A depicts an endotracheal device in which an
endotracheal tube is inserted inside of a tube attached to a
camera. FIG. 4B depicts a camera attached to a tube. FIG. 4C is a
cross-sectional view of the camera attached to the tube of FIG.
4B.
[0032] FIG. 5A depicts a tracheostomy tube equipped with a camera
externally.
[0033] FIG. 5B depicts a tracheostomy tube equipped with a camera
placed inside of the tracheostomy tube.
[0034] FIG. 6A depicts a suction catheter equipped with a camera
internally. FIG. 6B depicts a suction catheter equipped with a
camera externally.
[0035] FIG. 7A depicts a tubeless intubating device equipped with a
camera. FIG. 7B depicts combining the tubeless intubating device of
FIG. 7A with an endotracheal tube. FIG. 7C depicts loading of a
supraglottic airway onto the tubeless intubating device of FIG. 7A.
FIG. 7D depicts an assembly of the supraglottic device of FIG. 7C
with the tubeless intubating device of FIG. 7A.
[0036] FIG. 8 depicts a tool tube and camera combined with an
endotracheal tube by the means of rings.
[0037] FIG. 9A depicts an assembly of a camera with a tool tube and
further assembled with an endotracheal tube. FIG. 9B depicts
various medical devices to be inserted into the tool tube of the
FIG. 9A.
[0038] FIG. 10A depicts an oral airway device equipped with a
camera inserted through a channel. FIG. 10B depicts inserting an
endotracheal tube into the oral airway device of FIG. 10A. FIG. 10C
depicts a further embodiment with an alternative positioning of the
channel on the oral airway device body. FIG. 10D is a further
embodiment of an oral airway device comprising two balloons and a
camera. FIG. 10E depicts an oral airway device combined with a
bougie. FIG. 10F depicts the oral airway device of FIG. 10E
assembled with an endotracheal tube.
[0039] FIG. 11A depicts an oral airway device of adjustable length.
FIG. 11B depicts the device of FIG. 11A assembled with an
endotracheal tube. FIG. 11C is an enlarged view of the distal
portion of the device of FIG. 11A with a camera immobilized in the
oral airway tube. FIG. 11D is an enlarged view of the distal
portion of the device of FIG. 11A with a camera being mobile and
able to slide in and out from the oral airway tube. FIG. 11E is
another embodiment of an oral airway device of adjustable
length.
[0040] FIG. 12A is embodiment of a camera assembled with a stylet.
In the embodiment of FIG. 12B, the stylet is curved.
[0041] FIG. 13 depicts an oral airway device comprising two tubes
with a bougie and a camera.
[0042] FIG. 14A depicts an oral airway device with a cuff operated
by a handle.
[0043] FIG. 14B depicts the device of FIG. 14A with the cuff being
moved distally.
[0044] FIG. 15A depicts an oral airway device equipped with a
camera and a slit wall tube, both positioned internally in the oral
airway device. FIG. 15B depicts another embodiment for an oral
airway device equipped with a camera and a slit wall tube.
[0045] FIG. 16A depicts a supraglottic airway device with a camera
and slit wall tube. FIG. 16B depicts positioning of an endotracheal
tube into the supraglottic airway device of FIG. 16A.
[0046] FIG. 17A depicts a truncated supraglottic airway device with
a camera and slit wall tube. FIG. 17B depicts positioning of an
endotracheal tube into the supraglottic airway device of FIG.
17A.
[0047] FIG. 18A depicts a medical examination glove equipped with a
camera.
[0048] FIG. 18B is an alternative embodiment of a medical
examination glove equipped with a camera.
[0049] FIG. 19A depicts a camera equipped with two holders. FIG.
19B depicts an assembly of the camera of FIG. 19A with an
endotracheal tube.
[0050] FIG. 20 depicts a ventilation cap equipped with a camera and
the use of the ventilation cap in a supraglottic airway device or
endotracheal tube.
[0051] FIG. 21 depicts a laparoscopic trocar equipped with a
camera.
DETAILED DESCRIPTION
[0052] The present invention provides medical devices equipped with
a camera for intubation, ventilation, feeding and monitoring of a
patient. The present invention also provides methods for rapid and
accurate placement of a medical device in a patient and remote
continuous real-time monitoring of the patient after the
placement.
[0053] The invention provides a set of medical devices equipped
with a disposable camera which can be transferred between the
devices as needed. These devices provide continuous visualization
of any of the following in a patient in real time: nasopharynx,
pharynx/hypo pharynx, supraglottic structures, airway, internal
organ anatomy, vocal cords during normal and abnormal ventilation.
The devices also allow detection of abnormal anatomy and abnormal
vocal cord movements.
[0054] A camera in the present devices comprises a digital camera
coupled to a power cord. The digital camera may comprise CCD
(charge-coupled device) and/or CMOS (complementary metal-oxide
semiconductor) sensors. The captured images may be transmitted
either with a wire or wirelessly.
[0055] Referring to FIG. 1A, this embodiment provides an
endotracheal device, generally 10. The endotracheal device 10
comprises an endotracheal tube 12 with a distal end 12A and a
proximal end 12B. The endotracheal tube 12 comprises an inflatable
cuff 13 wrapped around the endotracheal tube 12 proximally to the
distal end 12A. The cuff 13 can be inflated with means 14 after the
endotracheal tube 12 is placed in a patient. The endotracheal tube
12 comprises a plate 15 positioned near the proximal end 12B. The
plate 15 is perpendicular to the endotracheal tube 12 and prevents
the endotracheal tube 12 from sliding into the patient's body after
the device 10 has been placed into the patient.
[0056] A camera 16 is sealed externally along the proximal-distal
(12B-12A) axis of the endotracheal tube 12. A diameter of the
camera 16 is not limited by a diameter of the endotracheal tube 12.
The diameter of the camera 16 can be larger or smaller than the
diameter of the endotracheal tube 12. This may be particularly
beneficial for pediatric patients and patients with abnormal
anatomy.
[0057] In the embodiment of FIG. 1A, the camera 16 is positioned
proximally to the cuff 13. The camera 16 may comprise a battery
(not shown), and/or electric wire 18 for connection to an external
device such as a computer and monitor (not shown). The camera 16
may also comprise means for transmitting images wirelessly. The
camera 16 may further comprise a light source which can be built-in
the camera 16.
[0058] At least in some applications, the camera 16 is a digital
camera equipped with a chip and the camera 16 collects and
transmits images continuously. The camera 16 can be connected
wirelessly or hard-wired with a computer network (not shown) which
collects and analyzes images obtained by the camera 16. This
arrangement permits for remote, continuous and real-time monitoring
of the endotracheal device 10 during placement and after-placement
in a patient. Thus, an accurate and rapid placement of the
endotracheal device 10 can be achieved. Further and because the
camera 16 continues to acquire images after the endotracheal device
10 is placed inside of a patient, the patient can be monitored in
real time for adverse reactions such as bleeding, airway
obstruction, shifting or malfunctioning, etc. of the endotracheal
device 10 and other reactions. The endotracheal device 10 may
continue to transmit images and information for as long as it
remains in a patient.
[0059] The endotracheal device 10 can be further equipped with a
sound-monitoring device (not shown) such as microphone which can
monitor heart beats and breathing tones and can be connected by
wire or wirelessly to a remote device which collects and monitors
patient's vital signals.
[0060] In the embodiment of FIG. 1A, the camera 16 is placed
proximally to the cuff 13 and externally to the endotracheal tube
12. It will be understood that the endotracheal device 10 can be
built with any endotracheal tube 12, including single-lumen and
double-lumen tubes. The endotracheal device 10 can be used for
either pediatric or adult patients. The endotracheal device 10 can
be made in various sizes.
[0061] FIG. 1B is another embodiment of an endotracheal device 20
which comprises the endotracheal tube 12 with the cuff 13 and other
elements as described in connection with FIG. 1A. In the embodiment
of FIG. 1B, the camera 16 is sealed externally to the endotracheal
tube 12 along the distal-proximal axis 12A-12B. Unlike the
embodiment of FIG. 1A, the camera 16 in the embodiment of FIG. 1B
is placed under the cuff 13 and it collects images distally from
the cuff 13. It will be understood that the endotracheal device 20
can be built with any endotracheal tube 12, including single-lumen
and double-lumen tubes. The endotracheal device 20 can be used for
either pediatric or adult patients. The endotracheal device 20 can
be made in various sizes.
[0062] It will be readily appreciated by a person of skill, that in
the embodiments of FIGS. 1A and 1B, the camera 16 is sealed along
the endotracheal tube 12. In other embodiments, the camera 16 can
be combined with the endotracheal tube 12 such that the camera 16
can slide up and down along the proximal-distal axis 12B-12A of the
endotracheal tube 12.
[0063] The camera 16 can be combined with the endotracheal tube 12
by being sealed with an adhesive to the endotracheal tube 12. In
alternative, the camera 16 can be attached to the endotracheal tube
12 such that the camera 16 can be separated from the endotracheal
tube 12 and transferred to another medical device. This reversible
attachment can be achieved by clipping the camera 16 to the
endotracheal tube 12 with at least one clip or by tying the camera
16 to the camera tube 12 with a rope, thread or and/or by plastic
and/or robber band. In alternative, the camera 16 can be equipped
with at least one ring which can slide over the endotracheal tube
12 and thereby combine the camera 16 with the endotracheal tube 12
such that the camera 16 can slide along the endotracheal tube
12.
[0064] FIGS. 2A and 2B provide another embodiment for an
endotracheal tube 30 equipped with a sleeve 32. In this embodiment,
an endotracheal tube 12 comprises a distal end 12A and a proximal
end 12B. The sleeve 32 is placed near the proximal end 12B. An
inflatable cuff 13 is wrapped around the endotracheal tube 12 near
the distal end 12A. The cuff 13 can be inflated with means 14. A
camera 16 is combined with the endotracheal tube 12 by being placed
through the sleeve 32, along the endotracheal tube 12 and under the
cuff 13. The camera 16 can slide along the proximal-distal axis
12B-12A such that the camera 16 can be positioned right at the
distal end 12A of the endotracheal tube 12, as shown in FIG. 2A.
The camera 16 can also slide further distally under the cuff 13
such that the camera 16 is now positioned distally to the distal
end 12A of the endotracheal tube 12 and provides images distally to
the distal end 12A of the endotracheal tube 12, as shown in FIG.
2B. The sleeve 32 is made of a flexible material, such as for
example plastic or rubber. This allows for sleeve 32 to easily
collapse as needed when the camera 16 moves distally along the
endotracheal tube 12. Compare the sleeve 32 in FIG. 2B where the
sleeve 32 in the collapsed position versus the sleeve 32 in FIG.
32A where the sleeve 32 is in a fully extended position.
[0065] At any time, a practitioner can manipulate the positioning
of the camera 16 through the sleeve 32, including to move the
camera 16 proximally or distally, and/or to remove the camera 16
from the patient while the endotracheal tube 12 still remains in
place in the patient. This arrangement allows for transferring the
camera 16 between different devices. This arrangement also allows
for adjusting the position of the camera 16 in the patient,
depending on an area that needs to be monitored. It will be
appreciated that the device 30 can comprise more than one camera.
In these further embodiments, a second camera can provide
additional images from a location proximal or distal to the camera
16.
[0066] A particularly important advantage can be obtained by
combining the camera 16 with a bougie, flexible stylet or any other
tool which can be used for guiding the placement of the
endotracheal tube 12 under continuous visualization from the camera
16.
[0067] FIG. 3A provides a further embodiment of an endotracheal
device 40 which comprises an endotracheal tube 12 with a distal end
12A and a proximal end 12B and a plate 15 near the proximal end
12B.
[0068] The endotracheal tube 12 comprises an inflatable cuff 13
wrapped around the endotracheal tube 12 proximally to the distal
end 12A. The cuff 13 can be inflated with means 14 after the
endotracheal tube 12 is placed in a patient. The endotracheal
device 40 comprises a camera 16 with electric wire 18. In some
embodiments, the camera 16 can be wireless.
[0069] In the embodiment of FIG. 3A, the camera 16 is attached to
the endotracheal tube 12 externally with rings 44 and 42 which wrap
around the endotracheal tube 12. The endotracheal tube 12 is
combined with the camera 16 by placing the endotracheal tube 12
through the rings 42 and 44. It will be appreciated that the
positioning of the camera 16 along the distal-proximal axis
(12A-12B) of the endotracheal tube 12 can be easily adjusted by
adjusting the positioning of the rings 42 and 44.
[0070] The camera 16 comprises two rings 42 and 44 as shown in more
detail in FIG. 3B depicting rings 42 and 44 attached to the
disposable camera 16. The number of rings can vary between
different embodiments. In various embodiments, from one to ten
rings can be attached to the camera 16. In some embodiments, rings
can have an adjustable diameter. This can be achieved by equipping
a ring with a clasp.
[0071] At least in some embodiments, a ring 46 has a clasp 48 as
shown in FIG. 3C which is a cross-sectional view of the camera 16
to which the ring 46 is attached. The clasp 48 permits secure
connection of the camera 16 to tubal devices of various diameters
because the diameter of the ring 46 can be adjusted as needed.
Thus, the same camera 16 with the ring 46 can be used on a
pediatric endotracheal tube and an endotracheal tube of the adult
size. It will be appreciated that the camera 16 with the ring 46
can be combined not only with an endotracheal tube, but with any
other medical tubal device. For example, the camera 16 can be
combined with an endotracheal tube, oral airway and any other
devices described in this disclosure.
[0072] FIG. 4A provides a further embodiment of an endotracheal
device 50 which comprises an endotracheal tube 12 with a distal end
12A and a proximal end 12B. The endotracheal device 50 may comprise
a cuff 52 which is wrapped around the endotracheal tube 12 slightly
above the distal end 12A, and which can be inflated with means 54.
The endotracheal tube 12 can also comprise a plate 55 which is
perpendicular to the tubal body 12 and is located near the proximal
end 12B. After the intubation, the plate 55 remains outside the
patient's body and prevents the endotracheal tube 12 from sliding
down into the patient.
[0073] As shown in FIG. 4A and more in detail in FIG. 4B, a camera
16 is attached along the body of a tube 56. The diameter of the
tube 56 is larger than the diameter of the endotracheal tube 12.
The endotracheal tube 12 can be placed inside of the tube 56 such
that the camera 16 can be positioned along the endotracheal tube
12. As can be appreciated from FIG. 4A, the tube 56 can slide along
the endotracheal tube 12. Accordingly, the camera 16 can be placed
closer or further away from the cuff 52. FIG. 4B shows the
attachment of the camera 16 to the tube 56. FIG. 4C is a
cross-sectional view through the camera 16 and the tube 56 showing
that the camera 16 is sealed to the tube 56. In the drawings 4A-4C,
the camera 16 comprises a wire 18. Other embodiments include those
in which a wireless camera is used. As can be appreciated from FIG.
4A, the tube 56 can rotate around the tube 12. Thus, the camera 16
can provide a 360-degree panoramic view of an area inside the
patient's body.
[0074] Further embodiments provide various tracheostomy tubes
equipped with a camera. FIG. 5A depicts a side view of an
embodiment for a tracheostomy device, generally 60. The device 60
comprises a tubal body 62 with a distal end 62A and a proximal end
62B. An inflatable cuff 64 is wrapped around the tubal body 62 in
proximity to the distal end 62A, but never at the very distal end
62A. The cuff 64 can be inflated with a device 66 after proper
placement of the device 60 in a patient. At the proximal end 62B,
the tubal body 62 protrudes through a plastic plate 68 such that
some portion of the tubal body 62 is proximal to the plastic plate
68 and will remain outside of a patient's neck after the device 60
is positioned in the patient.
[0075] The plastic plate 68 may be oval in shape with the tubal
body 62 protruding from the plate 68 in the middle of the oval
plastic plate 68. The plastic plate 68 may have two openings 69,
one on each side of the plate such that the device 60 can be
secured around patient's neck with some bandage by tying the device
60 through the openings 69 around patient's neck.
[0076] In the embodiment of FIG. 5A, a camera 16 is sealed or
otherwise attached to the tubal body 62 externally. The camera 16
is sealed or otherwise attached externally along the
proximal-distal (62B-62A) axis to the tubal body 62. The camera 16
is placed under the cuff 64 such that the cuff 64 wraps over the
camera 16 and the camera 16 can capture images near the distal end
62A.
[0077] A wire 18 of the camera 16 protrudes through the plastic
plate 68 and remains outside of patient's neck. In further
embodiments, the camera 16 can be in communication with a
monitoring device wirelessly. A light source can be added to camera
16.
[0078] FIG. 5B depicts another embodiment for a tracheostomy
device, generally 70. In this embodiment, the device 70 comprises
the same tubal body 62, cuff 64, plate 68 and other components as
was discussed in connection with the device 60.
[0079] However, unlike the device 60, a camera 16 is placed inside
of a lumen 72 of the tubal body 62. The camera 16 may be sealed or
otherwise attached internally to the tubal body 62 along the
proximal-distal (62B-62A) axis such as the distal end 16A of the
camera 16 is in close proximity with the distal end 62A of the
tubal body 62. A proximate end 16B of the camera 16 remains outside
the patient's body. The camera 16 can be connected by electrical
wire 18 to a monitoring device (not shown). In other embodiments,
the camera 16 communicates with a monitoring device wirelessly. In
some embodiments, the camera 16 comprises a light source.
[0080] Referring to FIG. 6A, this embodiment provides a suction
catheter with a camera, generally 80. The suction catheter 80
comprises a hollow tubal body 82 which is not flexible in the
embodiment of FIG. 6A. In other embodiments, a suction catheter can
be any suction catheter known in the art. A camera 16 is positioned
inside the suction catheter body 82 through an opening 83 which is
in near proximity with a proximal end 82B of the suction catheter
82. The camera 16 may comprise wire 18. The distal end 16A of the
camera 16 is aligned with the distal end 82A of the suction
catheter 82, while the proximal end 16B of the camera 16 protrudes
outside the patient's body such that the camera 16 can be pulled
out from the patient while the catheter body 82 still remains in
the patient.
[0081] Another embodiment of a suction catheter 86 is shown in FIG.
6B. In this embodiment, the camera 16 is placed externally along
the suction tube 82. The camera 16 can be glued or otherwise
attached to the body 82 along the proximal-distal axis (82B-82A).
The distal end 16A of the camera 16 is distal to the distal end 82A
of the suction catheter body 82. The proximal end 16B of the camera
16 is near the proximal end 82B of the suction catheter body 82.
The device 86 can work with suction caps.
[0082] Further embodiments provide a tubeless intubating device
shown in FIGS. 7A-7D, generally 90. The tubeless intubating device
90 comprises an ellipsoid body 92 which has an upper oval surface
93 with a lumen opening 93A on the upper oval surface 93 of the
ellipsoid body 92 as shown in FIG. 7A. The upper oval surface 93 is
connected to the bottom half-ellipsoid surface 94 as shown in FIG.
7A such that the distal end 92A of the ellipsoid body 92 is tapered
because the bottom half-ellipsoid surface 94 is tapered at the
distal end 92A. The ellipsoid body 92 encloses a lumen 96 which
opens onto the upper oval surface 93 with the lumen opening 93A.
The lumen 96 opens on the proximal side of the bottom
half-ellipsoid surface 94 with a canal 98 which connects to the
bottom half-ellipsoid surface 94 and extends beneath the bottom
half-ellipsoid surface 94. The bottom half-ellipsoid surface 94
also connects to a handle 100.
[0083] The handle 100 comprises three parts connected together: the
proximal part 100A, the middle part 100B and the distal part 100C.
The proximal part 100A may be made in flat rectangle shape with a
ring-holder 102 attached on the bottom surface of the proximal part
100A. The 100A part bends down at about a 90-degree angle at its
distal part where it connects to the middle part 100B. The middle
part 100B is also of flat rectangle shape and may vary in length.
As can be seen from FIG. 7A, the canal 98 is connected to the
bottom surface of the middle part 100B at the distal portion of the
middle part 100B. The middle part 100B connects to the distal part
100C at its distal end. The middle part 100B bends up at about a
90-degree angle at the distal part and connects to the distal part
100C. The distal part 100C connects by its distal end to the oval
upper surface 93 of the ellipsoid body 92.
[0084] A camera tube 16 is attached along the handle 100 on its
upper surface such that the camera 16 extends along the handle 100
from its proximal end 100A and all the way into the distal portion
100C. The camera 16 can slide along the proximal-distal axis of the
handle 100. The camera 16 may further comprise a light source. In
some embodiments, the ellipsoid body 92 can comprise an inflatable
cuff (not shown in FIG. 7A) which can be inflated with a means
104.
[0085] In some embodiments, the handle 100 can be made of flexible
material. In other embodiments, the tubeless intubating device 90
can be designed without the cuff. In some embodiments, the camera
16 is fixed to the handle 100. In other embodiments, the camera 16
can slide along the proximal-distal axis of the handle 100. The
distal end 16A of the camera 16 is aligned inside the lumen 96 and
can capture images at this location.
[0086] The tubeless intubating device 90 can be used for intubating
a patient with an endotracheal tube of any size under continuous
visualization of the camera 16. The tubeless intubating device 90
can be also used for extubation and for reintubation of a patient.
It can also act as a supraglottic device with an endotracheal tube
inflated with the cuff.
[0087] As shown in FIG. 7B, an endotracheal tube 106 can be loaded
onto the tubeless intubating device 90 such that the proximal end
106B of the endotracheal tube 106 is secured on the tubeless
intubating device 90 with the ring holder 102. It will be
appreciated that any endotracheal tube can be loaded into the
device 90 and inserted into a patient.
[0088] As can be seen in FIG. 7B, the endotracheal tube 106 in this
embodiment is equipped with a cuff 108 in the proximity to the
distal end 106A of the endotracheal tube 106. The distal end 106A
of the endotracheal tube 106 is then passed through the canal 98
and through the lumen 96 such that the distal end 106A of the
endotracheal tube 106 protrudes from the lumen opening 93A on the
upper oval surface 93 of the ellipsoid body 92, as shown in FIG.
7B. The endotracheal tube 106 can slide along the proximal-dorsal
axis of the tubeless intubating device 90 such that a longer or
shorter portion of the endotracheal tube 106 protrudes from the
lumen opening 93A. The endotracheal tube cuff 108 can be inflated
after it is loaded into the device 90 and secured in place with the
ring holder 102.
[0089] As can be further appreciated from FIG. 7B, after the
tubeless intubating device 90 delivers and assists in placing the
endotracheal tube 106 in the patient under direct and continuous
visualization, the tubeless intubating device 90 can be easily
removed from the patient while the endotracheal tube 106 remains
safely in place under continuous vision. Thus, the tubeless device
90 can be used with a standard endotracheal tube to intubate and
extubate a patient. The device 90 can be also used as a
supraglottic device.
[0090] As shown in FIGS. 7C and 7D, the tubeless intubating device
90 can be used for intubation and extubation of a patient with a
supraglottic airway, generally 110. The device 90 can also be used
for placement of a laryngeal mask airway. As shown in FIG. 7D, the
supraglottic airway 110 is secured in the device 90 with the ring
holder 102 such that the distal end of the device 110 is aligned
with the distal end of the device 90 and the lumen 96 of the device
90 is aligned with the lumen 112 of the device 110 and secured.
Because the assembly of the devices 90 and 110 is equipped with the
camera 16, it provides continuous visualization of patient's
supraglottic structure during placement.
[0091] FIG. 8 provides a further embodiment for an endotracheal
device, generally 120. The device 120 comprises an endotracheal
tube 12 combined with a tool tube 122. The tool tube 122 is
combined with the endotracheal tube 12 externally and is held in
place on the endotracheal tube 12 with rings 124. The rings 124 are
attached to the tool tube 122. The rings 124 can slide long the
endotracheal tube 12 and move the tool tube 122 on the endotracheal
tube 12 closer or further away from a cuff 13 located in near
proximity to the distal end 12A of the endotracheal tube 12. The
tool tube 122 is hollow and a medical tool and/or camera 16 can be
placed inside the tool tube 122 through its proximal end 122B. The
camera 16 can slide inside the tool tube 122 and may protrude
distally from the distal end 122A of the tool tube 122. The camera
16 can be removed from the tool tube 122 while the tool tube 122 is
still in place in the patient. A tool, including but not limited
to, biopsy forceps 124, esophageal stethoscope 126, cuff tube 128,
suction tube 130, nasogastric tube 132, stylet 134 and/or bougie
136 can be inserted in the tool tube 122 through an opening at the
proximal end 122B.
[0092] Each of the ring holders 124 is attached to the tool tube
122. The ring holder 124 can be a complete ring or a half-ring. It
can be also equipped with a clasp. It is understood that the tool
tube 122 can be attached with the ring holder 124 to any tubal
medical device. The tool tube 122 can then slide on the tubal
medical device or endotracheal tube 12 proximally or distally. The
tool tube 122 can also rotate about the tubal medical device or
endotracheal tube 12. In other embodiments, the tool tube 122 can
be placed internally into an endotracheal tube or supraglottic
airway lumen. It will be appreciated that in the FIG. 8, the tool
tube 122 is equipped with two rings 124 attached to the tool tube
122. In further embodiments, the tool tube 122 can be equipped with
only one ring or at least 3 rings. The positioning of the rings 124
on the tool tube 122 can vary. It will be further appreciated from
FIG. 8, that the positioning of the tool tube 122 along the body of
the endotracheal tube 124 can be adjusted such that the tool tube
122 can brought in near proximity with the cuff 13. A tool, such as
the bougie 136 can protrude distally from the tool tube 122,
including protruding distally from the distal end 12A of the
endotracheal tube 12. The bougie 136 can then guide an insertion of
the endotracheal tube 12 or any other tubal medical device to which
the tool tube 122 is attached in the patient's body.
[0093] FIG. 9A provides another embodiment for an endotracheal
device, generally 140. In this embodiment, an endotracheal tube 12
is combined with a camera 16 which is attached to a hollow tool
tube 142 externally. The tool tube 142 has a distal end 142A and a
proximal end 142B. The distal end 16A of the camera 16 is aligned
with the distal end 142A of the tool tube 142. The proximal end 16B
of the camera 16 is aligned with the proximal end 142B of the tool
tube 142. As can be seen from the embodiment in FIG. 9A, the distal
end 142A of the tool tube 142 protrudes distally from the distal
end 16A of the camera 16. When a tool, such as any of the tools
described in connection with FIG. 8, is placed inside the tool tube
142, the tool can protrude from the distal end 142A of the tool
tube 142. The tool, such as for example bougie, can then be
manipulated under continuous visualization by camera 16.
[0094] The endotracheal tube 12 is equipped with a cuff 13 and
means 14 for inflating the cuff 13, as was discussed in detail in
connection with FIG. 1A. The tool tube 142 is hollow and has an
opening at the distal end 142A and an opening at the proximal end
142B. The tool tube 142 can be capped with a cap 144 at the
proximal end 142B, if needed. The distal end 16A of the camera 16
is aligned right above the distal end 142A of the tool tube 142.
The tool tube 142 is combined with the endotracheal tube 12 by
being inserted under the cuff 13. Accordingly, the distal end 142A
of the tool tube 142 can be distal to the cuff 13. This allows to
insert tools and conduct needed procedures distally to the cuff 13
under the continuous visualization from the camera 16.
[0095] The tool tube 142 together with the camera 16 can slide
along the proximal-distal (12B-12A) axis of the endotracheal tube
12. The tool tube 142 together with the attached camera 16 can be
removed from the patient while the endotracheal tube 12 remains
inserted.
[0096] FIG. 9B depicts various tools, including, but not limited
to, biopsy forceps 124 or the suction tube 130, that can be
inserted into the tool tube 142. The tool tube 142 can be also used
for insertion a bougie (not shown). A bougie either alone or in
combination with any other tools can be inserted into the tool tube
142. The bougie can be positioned distally to the distal end 12A of
the endotracheal tube 12. The bougie can be then used for guiding
placement in a patient of the endotracheal tube 12 under the
continuous visualization of the camera 16.
[0097] When the tool tube 142 is not in use, the proximal opening
of the tool tube 142 can be closed with the cap 144. This allows to
establish a closed system for ventilation through the endotracheal
tube 12 while the tool tube 142 still inserted in the patient.
[0098] FIGS. 10A-10F are further embodiments of an oral airway
device, generally 150. As shown in FIG. 10A, the device 150
comprises a hollow tubal body 152 with a lumen 154 into which the
endotracheal tube 12 or any other medical device can be
inserted.
[0099] The tubal body 152 has a proximal end 152B and a distal end
152A. The tubal body 152 ends with a plate 156 at the proximal end
152B. The plate 156 is perpendicular to the tubal body 152 and
keeps the device 150 in place from sliding into the patient's body.
The tubal body 152 is slightly curved to follow the curvature of
the patient's tongue. In the embodiment of FIG. 10A, a camera 16 is
combined with the tubal body 152 by being inserted through a
channel 158. The channel 158 opens on the proximal side of the
plate 156 and then goes through an opening 160 in the plate 156.
The channel 158 then continues through the wall of the tubal body
152 and opens inside the lumen 154. The camera 16 is inserted
through the channel 158 into the lumen 154. In other embodiments,
the opening 160 does not connect to a channel, instead the camera
is inserted directly through the opening 160 and then through an
opening in the wall of the tubal body 152 in the lumen 154.
[0100] The camera 16 is inserted into the tubal body 152 through
the channel 158 or in other embodiments, the camera 16 is inserted
directly through the wall of the tubal body 152 without the
channel. The distal end 16A of camera 16 can be aligned with the
distal end 152A of the tubal body 152. The camera 16 can slide up
and down along the tubal body 152. The camera 16 can be removed
from the tubal body 152, while the tubal body 152 remains inserted
in the patient.
[0101] In the embodiment of FIG. 10A, the camera 16 is equipped
with a wire 18. In other embodiments, the camera 16 can be
wireless. The opening 154 of the tubal body 152 can be closed with
a ventilation cap 160 at the proximal end 152B. This allows
ventilation while the camera 16 is in place and continued
visualization and monitoring of the patient.
[0102] As shown in FIGS. 10B and 10C, the oral airway device 150
can be used for inserting an endotracheal tube 10 into a patient.
In the embodiment of FIG. 10B, the channel 158 enters the tubal
body 152 through the opening 160 as was discussed in connection
with the embodiment of FIG. 10A. In the embodiment of FIG. 10C, the
channel 158 enters the tubal body 152 distally to the plate 156.
Thus, the plate 156 in the embodiment of FIG. 10C does not comprise
an opening for the channel 158.
[0103] FIG. 10D is a further embodiment of an oral airway device,
generally 170. The device 170 comprises a hollow curved tubal body
172. The curve of the tubal body 172 matches the curve of a
patient's tongue for secure placement. The tubal body 172 has a
distal end 172A and a proximal end 172B. The tubal body 172 ends
with a plate 174 at the proximal end 172B. The plate 174 is
perpendicular to the tubal body 172. The tubal body 172 is hollow
and it comprises a central lumen 176 through which the endotracheal
tube 10 or any other device can be inserted into a patient. A
camera 16 is inserted through an opening 178 in the plate 174 and
is aligned along the proximal-distal axis (172B-172A) of the tubal
body 172 such that the distal end 16A of the camera 16 can be
aligned with the distal end 172A of the tubal body 172. The camera
16 can comprise wire 18 or the camera 16 can be wireless.
[0104] The device 170 further comprises a second hollow tubal body
180 which is aligned with the tubal body 172. A balloon 182 wraps
around the tubal body 172 and the tubal body 180 in a near
proximity to the distal end 172A. Thus, the two tubal bodies, 172
and 180, are held together by the balloon 182. The distal end 16A
of the camera 16 is inserted under the balloon 182. Accordingly,
the camera 16 can take images distally to the balloon182. The
camera 16 can be removed from the patient, while the device 170
remains in place in the patient. The balloon 182 can be inflated
with a means 184.
[0105] The second tubal body 180 comprises a lumen 182. The tubal
body 180 is attached along the proximal-distal axis of the tubal
body 172. This additional tubal body 180 can be used for
positioning an esophageal blocker 186 which can be then placed in
the patient's esophagus under direct visualization with the camera
16. The esophageal blocker 186 is equipped with a balloon 188 at
the distal end. The balloon 188 can be inflated with a means 190
and seal the patient's upper esophagus. In addition, the device 170
is equipped with a second balloon 182 which is circumferential and
wraps around the bodies 172 and 180, and located proximally to the
balloon 188. The balloon 182 can be used to inflate with the means
184. The balloon 182 used for sealing the upper pharynx. Thus, the
device 170 may act as a supraglottic airway with the endotracheal
tube 10 pulled back proximally in the device 170 with the
endotracheal tube 12 inflated.
[0106] FIG. 10E provides a further embodiment of an oral airway
device, generally 190. The device 190 comprises a curved tubal
hollow body 192 with a distal end 192A and a proximal end 1926. The
tubal body 192 ends with a plate 194 at the proximal end 1926. The
plate 194 is perpendicular to the tubal body 192. A camera 16 is
inserted through an opening 196 in the plate 194. The camera 16
then runs along the proximal-distal axis (192B-192A) of the tubal
body 192 such that a distal end 16A of the camera tube 16 can be
aligned with the distal end 192A of the tubal body 192.
[0107] A bougie 198 or any other tool can be inserted into a
central lumen 200 of the tubal body 192. The distal end 198A of the
bougie 198 can protrude from the lumen 200 distally. The patient's
tissues can be manipulated with the bougie 198 under the continuous
visualization by the camera 16. As the camera 16 can slide along
the tubal body 192, images can be taken at different locations with
respect to the distal end 192A of the tubal body 192. The camera 16
can be easily removed from the patient, while the tubal body 192
remains in place.
[0108] In the embodiment of FIG. 10F, the oral airway device 190 of
FIG. 10E is assembled with the endotracheal tube 10. In this
embodiment, the bougie 198 is inserted under the cuff 13 of the
endotracheal tube 12. This allows for an insertion of the
endotracheal tube 10 under the continued visualization from the
camera 16. The insertion can be guided with the bougie 198. After
the insertion has been completed, the bougie 198, the camera 16
and/or the tubal body 192 can be removed, while the endotracheal
tube 12 still remains inserted in the patient as needed.
[0109] FIG. 11A depicts a further embodiment of an oral airway
device with adjustable length for ventilation, continual
visualization, and intubation, generally 200. The device 200
comprises a two-part tubal body 202 with a lumen 203 and with open
proximal and distal ends. The length of the two-part tubal body 202
can be adjusted because the two-part tubal body 202 is made from an
outer cylindrical tube wall 204 and an inner cylindrical tube 206,
wherein the inner cylindrical tube 206 is at least partially
inserted into the outer cylindrical tube 204. The inner cylindrical
tube 206 can be extended from the outer cylindrical tube 204, thus
increasing the length of the two-part tubal body 202, as
needed.
[0110] The inner cylindrical tube 206 can be also retracted back
inside of the outer cylindrical tube 204, thus decreasing the
length of the two-part tubal body 202, as needed. The diameter of
the outer cylindrical tube 204 is larger than the diameter of the
inner cylindrical tube 206. Thus, the lumen 203 of the outer
cylindrical tube 204 has a diameter larger than the lumen 207 of
the inner cylindrical tube 206.
[0111] The inner cylindrical tube 206 is at least partially
inserted inside of the larger outer cylindrical tube 204. The inner
cylindrical tube 206 can rotate around inside the outer cylindrical
tube 204. The inner cylindrical tube 206 can also move distally and
it can be extended distally from the outer cylindrical tube 204,
thus the length of the tubal body 202 can be elongated or shorten,
as may be needed. In some embodiments, the cylindrical tube 206 can
be completely separated and removed from the cylindrical tube 204.
The tube 204 comprises a plate 208 near its proximal end. The plate
208 is perpendicular to the cylindrical tube 204. After the
insertion into a patient, the plate 208 prevents sliding of the
device 200 into the patient's oral cavity.
[0112] At least one of or both cylindrical tubes 204 and 206 are
curved to fit the curvature of the patient's tongue and prevent the
tongue from rolling back and abstracting the patient's airways. In
alternative embodiments, the cylindrical tubes 204 and 206 are not
curved, but they can be made of a plastic or some other flexible
material which permits bending the tubal body 202 as may be
needed.
[0113] The device 200 may comprise a bougie 210 which may be
inserted into the lumen 203 such that the distal end 210A of the
bougie 210 can protrude from the lumen 207. In some embodiments,
the lumen 203 is a complete lumen fully separated from the central
lumen 203. In other embodiments, the lumen 203 is a semi-lumen
which opens into the central lumen 203.
[0114] The bougie 210 can be inserted and removed from the tubal
body 202 at any time even as the tubal body 202 remains inserted in
the patient. In further embodiment, at least one of the cylindrical
tubes 204 or 206 can be removed from the patient's oral cavity,
while the other cylindrical tube remains inserted in the patient.
In some embodiments, the cylindrical tube 206 is removed. In other
embodiments, the cylindrical tube 204 is removed.
[0115] The device 200 comprises a camera 16 which may further
comprise a wire 18. The camera 16 is inserted inside of the
cylindrical tube 204 through an opening 212 located in proximity to
the proximal end of the cylindrical tube 204. The opening 212 is
located proximally to the plate 208. The distal end 16A of the
camera 16 can be aligned with a distal end 206A of the cylindrical
tube 206 and in near proximity to the distal end 210A of the bougie
210. Accordingly, the bougie 210 can be operated under the
continuous visualization from the camera 16.
[0116] FIG. 11B depicts an embodiment in which the device 200 is
further assembled with the endotracheal tube 10 described in
embodiment of FIG. 1A. It will be appreciated by a person of skill,
that any other endotracheal tube can be also used.
[0117] FIGS. 11C and 11D are an enlarged view of a distal portion
of the device 200 from FIG. 11A. In the embodiment of FIG. 11C, the
camera 16 is inserted into a wall of the cylindrical tube 206 and
the distal end 16A of the camera 16 remains at the distal end 206A
of the cylindrical tube 206. In the embodiment of FIG. 11D, the
camera 16 can slide distally from the distal end 206A of the
cylindrical tube 206. In this embodiment, the camera 16 can
protrude outside the distal end 206A. The camera 16 can be
retracted back into the wall of cylindrical tube 206. FIG. 11E
provides a further embodiment of the device 200. In this
embodiment, there is no separate opening for the camera 16 on the
side of the cylindrical tube 204. Instead, the camera 16 is
integrated in the wall of the cylindrical tube 206.
[0118] FIGS. 12A and 12B provide a further embodiment of a device,
generally 220. The device 220 comprises a camera 16 combined with a
stylet 222 which provides a backbone and shape to the otherwise
flexible camera 16. As can be seen in the embodiment of FIG. 12B,
the stylet 222 can be curved. The camera 16 can comprise a wire 18.
The camera 16 is further combined with a hollow tube 224. Various
tools, such as for example a bougie 226 can be inserted through the
tube 224. Because the tube 224 has an open distal end 224A, the
bougie 226 can protrude from the tool tube 224 distally to the
distal end 16A of the camera 16. Accordingly, the bougie 226 can be
manipulated under the continuous visualization of the camera 16.
The device 220 can be used in combination with any other medical
devices. The device 220 can be used for guiding a placement of a
medical device, such for example an endotracheal tube. The
placement of this medical device can be guided by the bougie 226
which can be used to move tissues away from the medical device
passage under the continuous visualization from the camera 16. The
stylet 22 can be made from a material (such as plastic for example)
which can be bent into a particular shape as needed.
[0119] FIG. 13 provides a further embodiment for an oral airway
device, generally 230. It comprises two hollow tubes. A first
hollow tube 232 is inserted inside of a second hollow tube 234. The
assembly of the two hollow tubes 232 and 234 is flexible such that
the first hollow tube 232 can rotate around inside the second
hollow tube 234. The second hollow tube 234 can also rotate around
the first hollow tube 232.
[0120] At least the second hollow tube 234 or both hollow tubes 232
and 234 are curved such that the oral airway device 230 follows the
contour of the roof of a patient's month. After it is inserted into
a patient, the oral airway device 230 curves over and rests on top
of the patient's tongue and therefore, it prevents the patient's
tongue from abstracting the patient's airway.
[0121] The first hollow tube 232 is longer in length than the
second hollow tube 234. The first hollow tube 232 can slide along
the proximal-distal axis A-B in and out from the second hollow tube
234. A distal end 232A of the first hollow tube 232 can extend
outside the second hollow tube 234 and retract back inside the
second hollow tube 234. Thus, the length of the device 230 can be
increased or decreased, and otherwise can be adjusted as needed.
This adjustable size of the oral airway 230 provides a significant
technical advantage and can avoid complications such as a failure
to hold the tongue in place if an oral airway is too short or
unintentionally pressing the tongue back into the airway if an oral
airway is too long.
[0122] After the placement in the patient is completed, the first
hollow tube 232 can be removed from the patient, while the second
hollow tube 234 remains in place. In alternative, the second hollow
tube 234 may remain in the patient, while the first hollow tube 232
is removed from the patient. This allows for easy cleaning and
replacement of either of the two tubes 232 and 234 if needed.
[0123] A camera 16 is attached to the second hollow tube 234
externally in the embodiment of FIG. 13. A distal end 16A of the
camera 16 is in near proximity with the distal end 234A of the
second hollow tube 234. The second hollow tube 234 ends with a
plate 236. The plate 236 has an oval shape with no sharp edges. The
purpose of the plate 236 is to stay around the patient's lips while
the hollow tubal body 234 is inserted in the patient. Thus, the
plate 236 keeps the device 230 from sliding into the patient's
pharynx after the device 230 has been placed. The plate 236 has two
openings, 238 and 240.
[0124] The opening 238 is positioned in the center of the plate 236
and is used for insertion of the first hollow tube 232 into the
second hollow tube 234. The first hollow tube 232 is inserted into
the second hollow tube 234 through the opening 238 such that the
proximal end 232B is proximal to the plate 236. The proximal end
232B remains outside the patient's body.
[0125] The opening 240 is positioned on the plate 236 such that the
distal end 16A of the camera 16 is inserted through the opening
240. The distal end 16A of the camera 16 is then aligned with the
distal end 234A of the second hollow tube 234.
[0126] The first hollow tube 232 may be used in combination with a
bougie 242. The first hollow tube 232 comprises a central lumen
244. The wall of the first hollow tube 232 may comprise an
additional tool lumen 246 for insertion of the bougie 242 or other
tools. It will be readily appreciated that the tool lumen 246 can
be a full lumen completely separated from the central lumen 244 in
some embodiments. In other embodiments, the tool lumen 246 can be a
semi-lumen connected to the central lumen 244. At least in some
other embodiments, the tube 232 does not comprise the tool lumen
246, and tools are inserted into the central lumen 244 instead.
[0127] A distal end 242A of the bougie 242 protrudes from the
distal end 232A of the first hollow tube 232. A proximal end 242B
of the bougie 242 protrudes proximally to the oral airway device
230 and will remain outside the patient's body for easy
manipulation.
[0128] In the embodiment of FIG. 13, the first hollow tube 232 ends
with a tapered tongue 250 at the distal end 232A. The first hollow
tube 232 can rotate inside the second hollow tube 234, such that
the distal end 242A of the bougie 242 comes under a direct view of
the camera 16. The bougie 242 is positioned above the tapered
tongue 250 of the first hollow tube 232.
[0129] The first hollow tube 232 and the second hollow tube 234 can
move independently of each other, including rotating in relation to
each other.
[0130] Referring to FIG. 14A, provided is an oral airway device,
generally 260, which comprises a curved tubal body 262 with a
central lumen 264 which can be used for insertion of various
devices such as for example, and endotracheal tube (not shown).
Thus, the curved tubal body 262 is hollow. The device 260 can be
used for preventing the tongue from covering the epiglottis. Thus,
the device 260 can be used for opening and maintaining the
patient's airway open. The curved tubal body 262 is curved in the
way which conforms the curved tubal body 262 to the shape of the
roof of the patient's mouth. The curved tubal body 262 will rest
over the patient's tongue and prevent the tongue from abstracting
the patient's airway.
[0131] A cuff 266 wraps around the curved tubal body 262 in FIG.
14A. A handle 268 is attached to the cuff 266. A camera 16 with a
wire 18 runs along the curved tubal body 262 externally. The distal
end 16A of the camera 16 is aligned with the distal end 262A of the
curved tubal body 262. At the proximal end 262B, the curved tubal
body 262 ends with a plate 270 which is positioned horizontally
over the proximal end 262B positioned vertically. The plate 270 has
a central opening which leads into the lumen 264. The plate 270 has
another opening 272 which is used for insertion of the camera
16.
[0132] As shown in FIG. 14B, the handle 268 can be pushed distally
such that the cuff 266 is moved along the proximal-distal axis A-B
of the curved tubal body 262. The cuff 266 can be a tube made of a
soft material or a balloon which can be inflated to occlude the
upper esophagus. Importantly, the cuff 266 wraps over the camera
16. Thus, when the cuff 266 is moved distally along the curved
tubal body 262, the camera 16 can still obtain images distally to
the cuff 262.
[0133] FIG. 15A provides a further embodiment for an oral airway
device equipped with a camera, generally 280. The oral airway
device 280 comprises a hollow tubal body 282 with a central lumen
284. The tubal body 282 is a curved wall. The curvature of the
tubal body 282 follows the curvature of a patient's tongue such
that the device 280 can be placed over the patient's tongue and
prevent the tongue from rolling over.
[0134] The tubal body 282 has a distal end 282A and a proximal end
282B. An inflatable cuff 286 wraps around the tubal body 282 near
the distal end 282A. The cuff 286 can be inflated with the means
288 after the oral airway device 280 has been positioned in the
patient. The tubal body 282 ends with a plate 290 at the proximal
end 282B. The plate 290 is perpendicular to the tubal body 282 and
remains outside the patient's body. The plate 290 prevents the
device 280 from sliding into the patient. The tubal body 282 with
the plate 290 comprises the central lumen 284. A hollow tube 292 is
positioned inside the central lumen 284. The hollow tube 292 runs
along the wall of the tubal body 282 from its distal end 282B to
its proximal end 282A. The hollow tube 292 is glued or otherwise
attached to the wall of the tubal body 282. A camera 294 can be
inserted into the hollow tube 292.
[0135] Next to the hollow tube 292 is a slit wall tube 296 inside
the central lumen 284. The slit wall tube 296 is glued or otherwise
attached along the wall of the tubal body 282 such that a distal
end 296A of the slit wall tube 296 is aligned with the distal end
282A of the tubal body 282. The distal end 296A of the slit wall
tube 296 is in near proximity with a distal end of the tube 292.
The slit wall tube 296 can host a bougie 298 which can be inserted
into the slit wall tube 296 through a proximal end 296B. Because
the camera 294 is in near proximity with the bougie 298 when the
bougie 298 is inserted in the slit wall tube 296, the bougie 298
can be used for guiding the insertion of a medical device
positioned in the central lumen 284 under the contentious
visualization from the camera 294. The slit wall tube 296 can be
also used for insertion of other tools in addition or instead of
the bougie 298. The bougie 298 can be removed from the slit wall
tube 296 and re-inserted as needed.
[0136] While the embodiment of FIG. 15A provides a slit wall tool
tube for an oral airway device, it will be appreciated that a slit
wall tool tube can be also used in other embodiments of this
disclosure, including a tool tube in endotracheal devices in FIG.
8, FIGS. 9A and 9B, an oral airway device of FIGS. 11A, 11B, 11C,
11D and 11E and any other devices in which a tool tube is used for
delivering a bougie and/or any other tool.
[0137] Another embodiment of an oral airway device, generally 300
is depicted in FIG. 15B. In this embodiment, the oral airway device
300 comprises a hollow tubal body 302. The hollow tubal body 302
comprises a central lumen 304. The hollow tubal body 302 is a
curved wall which follows the curvature of a patient's tongue. The
hollow tubal body 302 comprises a distal end 302A and a proximal
end 302B. A cuff 306 wraps around the tubal body 302 near the
distal end 302A.
[0138] The cuff 306 can be inflated with the means 308 located
proximally to the proximal end 302B of the tubal body 302. The
tubal body 302 ends with a plate 310 at the proximal end 302B. The
plate 310 is perpendicular to the tubal body 302 and remains
outside the patient's body after the device 300 has been inserted
into the patient. The plate 310 prevents the device 300 from
sliding into the patient. The wall of the tubal body 302 together
with the plate 310 create a central lumen 304.
[0139] A hollow tube 312 runs along the tubal body 302 externally,
along the distal-proximal (302A-302B) axis of the tubal body 302. A
distal end 312A of the tube 312 is aligned with the distal end
302A. The tube 312 runs under the cuff 306. Thus, the cuff 306
wraps around the tube 312 and tubal body 302. The cuff 306 keeps
the tube 312 positioned on the tubal body 302 at the distal end
302A. A proximal end 312B of the tube 312 is inserted through an
opening 314 in the plate 310. A camera 316 is inserted through the
proximal end 312B of the tube 312. Because the distal end 312A is
not sealed, the camera 316 can protrude from the tube 312 distally.
The camera 316 can be removed from the tube 312 if no longer
needed.
[0140] A slit wall tube 318 runs along the tubal body 302. A slit
320 of the slit wall tube 318 is aligned with the lumen 304 of the
tubal body 302. Thus, the lumen 304 of the tubal body 302 and the
slit wall tube 318 are connected by slit 320. A bougie 322 can be
inserted into the slit wall tube 318. The cuff 306 wraps around the
slit wall tube 318 and tubal body 302. The cuff 306 keeps the slit
wall tube 318 positioned on the tubal body 302 at the distal end
302A. A proximal end 318B of the slit wall tube 318 is inserted
through an opening 324 of the plate 310. While only the bougie 322
is shown in FIG. 15B, it will be appreciated that the slit wall
tube 318 can be used for any other tools, such as for example,
biopsy forceps or a suction tube. A distal end 318A of the slit
wall tube 318 is in near proximity with the distal end 312A of the
tube 312. Thus, the bougie 322 can be operated under the continuous
visualization by the camera 316.
[0141] It will be appreciated that while the embodiment of FIGS.
15A and 15B provide a slit wall tube in connection with an oral
airway device, the slit wall tube can be used in any of other
devices described in this application. The slit wall tube can be
used instead of or in addition to a tool tube in any of the devices
in which the tool tube is used.
[0142] FIG. 16A depicts an embodiment of a supraglottic airway
device, generally 330. The device 330 comprises a hollow tubal body
332, the wall 334 of the hollow tubal body 332 creates a central
lumen 336. At a distal end 332A, the tubal body 332 ends with a
soft cuff 338. The cuff 338 cannot be inflated. In other
embodiments (not shown), the device 330 can comprise an inflatable
cuff instead of the cuff 338. The wall 334 of the tubal body 332
comprises a lumen 340 which begins at the proximal end 332B of the
tubal body 332 and runs all the way to the distal end 332A of the
tubal body 332. A camera 342 can be inserted through the lumen 340
and provide images distally to the device 330. The lumen 340 is not
sealed. Thus, the camera 342 can protrude distally from the lumen
340. The wall 334 also comprises a semi-lumen 344 which opens with
a slit 346 into the central lumen 336. The semi-lumen 344 begins at
the proximal end 332B of the tubal body 332. The semi-lumen 344
runs all the way to the distal end 332A of the tubal body 332. A
bougie 348 can be inserted through the semi-lumen 334. The bougie
348 can protrude distally from the device 330 when inserted in the
semi-lumen 334. The semi-lumen 334 is in near proximity with the
lumen 340.
[0143] Accordingly, the bougie 348 can be manipulated under the
continuous visualization from the camera 342. This allows for
guiding the placement of the device 330 with the bougie 348 under
the continuous visualization from the camera 342. Because the
bougie 348 can be also brought into the main lumen 336 through the
slit 346, the bougie 348 can also assist in guiding a placement of
any other device, such as for example an endotracheal tube, when
the endotracheal tube is inserted in the central lumen 336.
[0144] FIG. 16B depicts insertion of an endotracheal tube 350 into
the device 330. Any endotracheal tube described in this application
or generally known in the field can be used in the assembly with
the device 330.
[0145] A further embodiment of a device, generally 360, is shown in
FIG. 17A. The device 360 can be characterized as a truncated
supraglottic device because the device 360 has a truncated tubal
body 362 which ends with a soft cuff 364 at a distal end 362A of
the truncated tubal body 362. The wall 366 of the truncated tubal
body 362 comprises a lumen 368. The lumen 368 extends proximally
from the tubal body 362 as a tube 370. The length of the tube 370
is such that a proximal end 370B may extend outside the patient's
body, while the truncated tubal body 362 is fully inserted in the
patient. A camera 372 is inserted into the tube 370 through the
proximal end 370B of the tube 370. The camera 372 can protrude
distally from the lumen 368 and take images distally to the device
360. The device 360 is equipped with a handle 374 which runs along
the tube 370. The handle 374 comprises at least one semi-ring 376
for holding in place an endotracheal tube or any other tubal device
when combined with the device 360. While in the embodiment of FIG.
17A, the holder is a semi-ring, other options may include a ring,
including a ring with a clasp.
[0146] In addition to the lumen 368, the wall 366 also comprises a
semi-lumen 378 which opens with a slit 380 into a main lumen 382 of
the truncated tubal body 362. Just like the lumen 368 which extends
proximally via the tube 370 from the truncated tubal body 362, the
semi-lumen 378 also extends proximally via a slit wall tube 382. A
proximal end 382B of the slit wall tube 382 remains outside the
patient's body after the device 360 is inserted into the patient. A
bougie 384 is inserted through the proximal end 382B of the slit
wall tube 382. The bougie 384 can protrude distally from the
semi-lumen 378. The semi-lumen 378 is in near proximity with the
lumen 368 such that the bougie 384 can be monitored with the camera
372. Thus, the bougie 384 guides placement of the device 360 and
any other tubal device, such as for example an endotracheal tube,
under the continuous visualization by the camera 372.
[0147] FIG. 17B depicts an endotracheal tube 386 combined with the
device 360. The endotracheal tube 386 is held in place on the
device 360 with the semi-ring 376. The endotracheal tube 386 is
inserted into the lumen 382 of the truncated tubal body 362. The
distal end 386A of the endotracheal tube 386 can protrude distally
from the device 360. A placement of the device 360 can be guided by
manipulating the handle 374. The bougie 384 and camera 372 are not
shown in FIG. 17B, but will be positioned as described in
connection with FIG. 17A.
[0148] Referring to FIG. 18A, provided is a medical glove equipped
with a camera, generally 390. The medical glove 390 has the dorsal
side 392 which covers the dorsal side of a human hand. As also
typical for medical gloves, the medical glove 390 comprises five
fingers--one for each finger of the human hand. A practitioner can
wear the glove 390 over his/her hand. In the embodiment of FIG.
18A, a right-hand glove is shown. It will be appreciated by a
person of skill that in alternative embodiments, a left-hand glove
can also be equipped with a camera.
[0149] In the embodiment of FIG. 18A, a camera 394 comprises a
distal end 394A and a proximal end 394B. The distal end 394A of the
camera 394 is aligned over the tip of the index finger 396. This
allows continuous visualization distally to the medical glove 390
by the camera 394. The camera 394 is then sealed or otherwise
attached to the dorsal side 392 of the glove 392. The proximal end
394B of the camera 394 extends over the gloved hand and can be
connected to a computer or any other device by a wire. In some
embodiments, the camera 394 can transmit images wirelessly.
[0150] It will be appreciated that in other embodiments, the camera
394 can be positioned over the middle finger 398 of the glove 390
or any other finger. The camera 394 can be attached to any part of
the medical glove, any of the medical glove fingers, including the
thumb 400, and a hand and/or wrist 402. The glove 390 can be
further equipped with a tool tube (not shown) which can be used for
insertion of tools such as for example, a bougie. The camera 394
can be also positioned over the palm of the hand instead of or in
addition to the dorsal side of the glove.
[0151] A further embodiment of the glove 390 is shown in FIG. 18B
where the glove 390 is equipped with a set of at least three rings,
404s. In other embodiments, the number of rings can vary from 1 to
20. At least some of the rings 404 are positioned over at least one
finger. In the drawings of FIG. 18B, the ring 404 is positioned
over the index finger. The camera 394 can be securely attached to
the glove 390 with the rings 404. The camera 394 can be removed
from the glove 390 when visualization is no longer needed. If
additional rings 404 are positioned over middle finger 398 and/or
any other fingers, the camera 394 can be easily moved between
different fingers as may be needed.
[0152] Referring to FIG. 19A, it provides a camera 406 comprising
two holders 408 and 410 for attaching the camera 406 to an
endotracheal tube 412 as shown in FIG. 19B. The camera 406 has a
distal end 406A and a proximal end 406B. The distal end collects
images.
[0153] The holders 408 and 410 are attached to the camera 394 with
an adhesive. In some embodiments two holders are used. In other
embodiments from one to 10 holders can be used. The holder 408 is
round in shape and has a slit 409. The diameter of the holder 408
is designed such that the endotracheal tube 412 can be pushed
through the slit 409 into the holder 408. The holder 410 is also
round and comprises a slit 411 through which the endotracheal tube
412 can fit. Thus, the camera 406 can be secured with the holders
408 and 410 on the body of the endotracheal tube 412 such that the
distal end 406A of the camera 406 can be moved along the
endotracheal tube 412 closer or further way from a distal end 412A
of the endotracheal tube 412. While in the embodiments 19A and 19B,
holders 408 and 410 are round with a slit, other embodiments may
include those in which at least one of the holders is a ring and/or
a ring with a clasp. The camera 406 can be combined not only with
an endotracheal tube, but with any other device that comprise a
tubal body, including an oral airway.
[0154] Referring to FIG. 20, it provides a ventilation cap 414 with
a camera 416. The ventilation cap 414 can be positioned over a
supraglottic airway 418 or endotracheal tube 420 or any other
device with a tubal body. The camera 416 can be inserted through an
opening 422 in the cap 414 such that a distal end 416A of the
camera 416 can protrude distally from the device 418 or 420 or any
other tubal device into which the camera 416 is inserted. Combining
the ventilation cap 414 with the device 418 or 420 allows to
establish a close system and permits ventilation of a patient. This
can be accomplished under the continuous visualization by the
camera 416. A proximal end 416B of the camera 416 protrudes
proximally to the ventilation cap 414. The proximal end 416B
remains outside the patient body. The proximal end 416B can be
connected to a computer and/or monitor. The camera 416 can be
removed from the patient's body through the opening 422 while the
ventilation cap 414 still remains in place in the patient. The
ventilation cap 414 can be used with any supraglottic device,
including those described in this application. The ventilation cap
414 can be used in combination with any endotracheal tube,
including any of the endotracheal tubes described in this
application.
[0155] Referring to FIG. 21, it depicts a trocar equipped with a
camera, generally 450. The trocar 450 has a hollow tubal body 452
which can be either flexible or rigid with a distal end 452A and a
proximal end 452B. A sharp piercing conical stylus 454 is
protruding from the distal end 452A of the hollow tubal body 452
which comprises a lumen or a semi-lumen in its wall through which a
camera 456 is inserted.
[0156] A distal end 456A of the camera 456 is positioned near the
distal end 452A of the hollow tubal body 452. The proximal end 456B
of the camera 456 remains outside the patient body. The camera 456
can provide visualization of the stylus 454.
[0157] The device 450 can be used during a laparoscopic surgery to
create an opening into the patient's body with the stylus 454 under
the continuous visualization by the camera 456. After the opening
in the body has been created, the stylus 454 can be retracted from
the hollow tubal body 452, and various instruments, i.e. a
laparoscope, needed to complete a surgery can be inserted through
the hollow tubal body 452. It will be appreciated that the camera
456 can be combined with any laparoscopic trocars, including
robotic trocars.
[0158] While certain medical devices are described above, a person
of skill would appreciate that this invention also includes
embodiments with various obvious modifications as would be easily
apparent to a person of skill.
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